Since my engine blew, with the most likely culprit having something to do with the cooling system, I've come to view air cooling as an asset. One member here said that the small coolant passages trap air easily, even after bleeding, which is my best guess as to what happened. And it went from supposedly normal operating temperature to critically overheated very quickly.
Are oil cooled bikes more similar to air or water in terms of tight clearances and narrow operating temperatures? Somewhere in between?
With regards to water cooling increasing power -- not always? My water cooled People 250 produced I think 19hp. Air cooled cruisers (Yamaha, Suzuki) will produce more. Kymco's water cooled cruiser and Hyosung's oil cooled cruisers produce more than the air cooled, but not 40% more. For some reason, the sport bikes will be even more than that -- oil or water.
Small 250 cc cruisers you mention usually have 2 cylinders, and not one, thus benefiting from synergy effect and therefore might be a bit more powerful than 1-cyl 250 cc engine.
Also, one should take into account whether the engine is 2 valves per cylinder or 4 valves per cylinder. Your typical 2-valve 300 cc engine in w/c scoots has 23-24 hp while the same engine with 4-valves has around 30 hp, only because of improved cylinder flow.
I guess, this thread is about scenario 2 valve per cylinder single cylinder that is air cooled or water cooled, and not other technical scenarios that might be possible in engineering sense of the word.
Finally, it seems that most people commenting do not fully understand the following cooling options:
- air cooled with fan (most "air cooled" Kymcos)
- air-oil cooled (with or without fan but with separate direct air oil cooler - VW Beetle and old 911s, Kawasaki sports touring bikes of 70s-90s)
- water cooled (without fan, usually small displacement w/c scoots)
- water cooled with fan (usually 300 cc scoots and bikes and higher)
They are all very different with different repercussions on the final engine power output.
Finally, a comment about two things from your post:
- "quick" passage from normal operating temperature to overheated: unfortunately, this is expected. Coolant temperature is usually 90-100 C. Boiling temperature of the new coolant is around 106 C. If something goes wrong, you will notice it in a matter of minutes in a car, or even sooner in a bike that has maybe 1,5l of coolant in the system.
- Clearances are much tighter in w/c engines because they are expected to work in a very narrow temperature range. A/C engines have looser clearances, the same with oil-air cooled engines. W/C engines have therefore higher compression ratio and proportionately higher power output. A/C engines have lower compressions and lower power output.
Comparably and relatively speaking, w/c may be constructed to rev higher than a/c engines.
